Voice assistant for wireless earpieces

ABSTRACT

A system, method, and wireless earpieces for implementing a virtual assistant. A request is received from a user to be implemented by wireless earpieces. A virtual assistant is executed on the wireless earpieces. An action is implemented to fulfill the request utilizing the virtual assistant. The wireless earpieces may be a set of wireless earpieces and the virtual assistant may be implemented independently by the wireless earpieces.

PRIORITY STATEMENT

This application claims priority to and is a continuation of U.S.Non-Provisional patent application Ser. No. 17/385,769, filed on Jul.26, 2021 which is a continuation of U.S. Non-Provisional patentapplication Ser. No. 15/676,635, filed on Aug. 14, 2017 now U.S. Pat.No. 11,086,593 which claims priority to U.S. Provisional PatentApplication 62/380,025, filed on Aug. 26, 2016, and both entitled VOICEASSISTANT FOR WIRELESS EARPIECES, all of which are hereby incorporatedby reference in their entirety.

BACKGROUND I. Field of the Disclosure

The illustrative embodiments relate to wireless earpieces. Morespecifically, but not exclusively, the illustrative embodiments relateto a virtual assistant for wireless earpieces.

II. Description of the Art

The growth of wearable devices is increasing exponentially. This growthis fostered by the decreasing size of microprocessors, circuity boards,chips, and other components. Thus far, wearable devices have beenlimited to basic components, functionality, and processes due to theirlimited space. At the same time, more and more users, have becomedependent on virtual assistants, such as Siri, Alexa, Cortana, and soforth. Virtual assistants have not been fully integrated into wearablesdue to size constraints and available processing power.

SUMMARY OF THE DISCLOSURE

One embodiment of the illustrative embodiments provides a system,method, and wireless earpieces for implementing a virtual assistant. Arequest is received from a user to be implemented by wireless earpieces.A virtual assistant is executed on the wireless earpieces. An action isimplemented to fulfill the request utilizing the virtual assistant.Another embodiment provides wireless earpieces including a processor anda memory storing a set of instructions. The set of instructions areexecuted to perform the method described above.

Another embodiment provides a wireless earpiece. The wireless earpiecemay include a frame for fitting in an ear of a user. The wirelessearpiece may also include a logic engine controlling functionality ofthe wireless earpiece. The wireless earpiece may also include a numberof sensors measuring biometrics and actions associated with the user.The wireless earpiece may also include a transceiver communicating withat least a wireless device. The logic engine executes a virtualassistant to retrieve information associated with a request from thewireless device, and retrieves the biometrics and actions associatedwith the user for responding to the request.

One embodiment provides a system, method, and wireless earpieces forimplementing a virtual assistant. A first virtual assistant for awireless device is activated in response to receiving a request. Asecond virtual assistant on the wireless earpieces is executed toretrieve information associated with the request. An action isimplemented utilizing the wireless device to fulfill the requestutilizing the information. Another embodiment provides wirelessearpieces including a processor and a memory storing a set ofinstructions. The set of instructions are executed to perform the methoddescribed above.

Another embodiment provides a wireless earpiece. The wireless earpiecemay include a frame for fitting in an ear of a user. The wirelessearpiece may also include a logic engine controlling functionality ofthe wireless earpiece. The wireless earpiece may also include a numberof sensors measuring biometrics and actions associated with the user.The wireless earpiece may also include a transceiver communicating withat least a wireless device. The logic engine receives a request from auser, executes a virtual assistant on the wireless earpiece, retrievesthe biometrics and the actions from the number of sensors to be utilizedto respond to the request, and implements an action to fulfill therequest utilizing the biometrics and the actions.

Another embodiment provides wireless earpieces. The wireless earpiecesinclude a processor and a memory storing a set of instructions. The setof instructions are executed to receive a request from a user throughthe plurality of sensors to be implemented by at least the logic engineof the wireless earpiece, execute a virtual assistant on the wirelessearpieces to retrieve user biometrics, and implement an action tofulfill the request utilizing the virtual assistant.

One embodiment provides a system, method, and wireless earpieces forimplementing a virtual assistant in response to user preferences. Userpreferences associated with a user of the wireless earpieces arereceived. Data and information about the user and an environment of theuser are captured by the wireless earpieces based on the userpreferences.

Another embodiment provides a wireless earpiece. The wireless earpiecemay include a frame for fitting in an ear of a user. The wirelessearpiece may also include a logic engine controlling functionality ofthe wireless earpiece. The wireless earpiece may also include a numberof sensors measuring data and information about the user and anenvironment of the user based on user preferences. The wireless earpiecemay also include a transceiver communicating with at least a wirelessdevice. The logic engine determines whether to provide automaticassistance to the user based on the user preferences utilizing a virtualassistant executed by the logic engine, generates the automaticassistance through the virtual assistant utilizing the data and theinformation, and communicates the automatic assistance to the userthrough the virtual assistant of the wireless earpieces.

Yet another embodiment provides wireless earpieces including a processorand a memory storing a set of instructions. The set of instructions areexecuted to receive user preferences associated with wireless earpieces,automatically capture data and information about a user and anenvironment of the user utilizing sensors of the wireless earpiecesbased on the user preferences, determine whether to provide automaticassistance to the user based on the user preferences utilizing thevirtual assistant of the wireless earpieces, generate the automaticassistance through the virtual assistant of the wireless earpiecesutilizing the data and the information, and communicate the automaticassistance to the user through the virtual assistant of the wirelessearpieces.

BRIEF DESCRIPTION OF THE DRAWINGS

Illustrated embodiments of the present invention are described in detailbelow with reference to the attached drawing figures, which areincorporated by reference herein, and where:

FIG. 1 is a pictorial representation of a communication system inaccordance with an illustrative embodiment;

FIG. 2 is a block diagram of wireless earpieces in accordance with anillustrative embodiment;

FIG. 3 is a pictorial representation of sensors of the wirelessearpieces in accordance with illustrative embodiments;

FIG. 4 is a flowchart of a process for utilizing a virtual assistant forwireless earpieces in accordance with an illustrative embodiment;

FIG. 5 is a flowchart of a process for utilizing a virtual assistant forwireless earpieces and a wireless device in accordance with anillustrative embodiment;

FIG. 6 is a flowchart of a process for utilizing automaticallyimplementing a virtual assistant in accordance with an illustrativeembodiment;

FIG. 7 is a passive process for utilizing a virtual assistant inaccordance with an illustrative embodiment; and

FIG. 8 depicts a computing system in accordance with an illustrativeembodiment.

DETAILED DESCRIPTION OF THE DISCLOSURE

The illustrative embodiments provide a system, method, wirelessearpieces, and personal area network for providing a virtual assistant.In one embodiment, the wireless earpieces may independently execute avirtual assistant available to the user with or without a connection toanother wireless device, such as a cell phone. In another embodiment,the virtual assistant may be accessed through a separate wireless devicewith the wireless earpieces acting as an input/output device forproviding voice, gesture, touch, or other input to control, manage, orinteract with the virtual assistant. The virtual assistant may operateactively or passively to perform any number of tasks, features, andfunctions based on a user request, user preferences, or so forth. Thevirtual assistant may represent hardware, software, firmware, or acombination thereof that may include systems of the wireless earpiecesthat may be utilized to implement the embodiments herein described. Thevirtual assistant may also be an integrated part of a virtual reality oraugmented reality system.

The virtual assistant of the wireless earpieces may be utilized to playmusic or audio, track user biometrics, perform communications (e.g.,two-way, alerts, etc.), provide feedback/input, or any number of othertasks. The virtual assistant may manage execution of software or sets ofinstructions stored in an on-board memory of the wireless earpieces toaccomplish numerous tasks. The virtual assistant may also be utilized tocontrol, communicate, manage, or interact with a number of othercomputing, communications, or wearable devices, such as smart phones,laptops, personal computers, tablets, holographic displays, virtualreality systems, gaming devices, projection systems, vehicles, smartglasses, helmets, smart glass, watches or wrist bands, chest straps,implants, displays, clothing, or so forth. In one embodiment, thevirtual assistant of the wireless earpieces may be integrated with,control, or otherwise communicate with a personal area network. Apersonal area network is a network for data transmissions among devices,such as personal computing, communications, camera, vehicles,entertainment, and medical devices. The personal area network mayutilize any number of wired, wireless, or hybrid configurations and maybe stationary or dynamic. For example, the personal area network mayutilize wireless network protocols or standards, such as INSTEON, IrDA,Wireless USB, near field magnetic induction (NFMI), Bluetooth, Z-Wave,ZigBee, Wi-Fi, ANT+ or other applicable radio frequency signals. In oneembodiment, the personal area network may move with the user.

Any number of conditions, factors, and so forth may be utilized todetermine a response or implementation of a command that is communicatedto one or more of the wireless earpieces. The virtual assistant mayprovide a hands free way of receiving information (e.g., applicable tothe user, user's environment, wireless earpieces, connected devices,etc.) and implementing and controlling functions and features.

The wireless earpieces may include any number of sensors for readinguser biometrics, such as pulse rate, blood pressure, blood oxygenation,temperature, orientation, calories expended, blood or sweat chemicalcontent, voice and audio output, impact levels, and orientation (e.g.,body, head, etc.). The sensors may also determine the user's location,position, velocity, impact levels, and so forth. The sensors may alsoreceive user input and convert the user input into commands orselections made across the personal devices of the personal areanetwork. For example, the user input detected by the wireless earpiecesmay include voice commands, head motions, finger taps, finger swipes,motions or gestures, or other user inputs sensed by the wirelessearpieces. The user input may be received, parsed, and converted intocommands associated with the input that may be utilized internally bythe wireless earpieces or sent to one or more external devices, such asa tablet computer, smart phone, or so forth. The wireless earpieces mayperform sensor measurements for the user to read any number of userbiometrics. The user biometrics may be analyzed including measuringdeviations or changes of the sensor measurements over time, identifyingtrends of the sensor measurements, and comparing the sensor measurementsto control data for the user.

The wireless earpieces may also measure environmental conditions, suchas temperature, location, barometric pressure, humidity, radiation, windspeed, and other applicable environmental data. The wireless earpiecesmay also communicate with external devices to receive additional sensormeasurements. The wireless earpieces may communicate with externaldevices to receive available information, which may include informationreceived through one or more networks, such as the Internet.

FIG. 1 is a pictorial representation of a communications environment 100in accordance with an illustrative embodiment. The wireless earpieces102 may be configured to communicate with each other and with one ormore wireless devices, such as a wireless device 104 or a personalcomputer 118. The wireless earpieces 102 may be worn by a user 106 andare shown both as worn and separately from their positioning within theears of the user 106 for purposes of visualization. A block diagram ofthe wireless earpieces 102 if further shown in FIG. 2 to furtherillustrate components and operation of the wireless earpieces 102including the virtual assistant.

In one embodiment, the wireless earpieces 102 includes a frame 108shaped to fit substantially within the ears of the user 106. The frame108 is a support structure that at least partially encloses and housesthe electronic components of the wireless earpieces 102. The frame 108may be composed of a single structure or multiple structures that areinterconnected. An exterior portion of the wireless earpieces 102 mayinclude a first set of sensors shown as infrared sensors 109. Theinfrared sensors 109 may include emitter and receivers that detects andmeasures infrared light radiating from objects in its field of view. Theinfrared sensors 109 may detect gestures, touches, or other user inputagainst an exterior portion of the wireless earpieces 102 that isvisible when worn by the user 106. The infrared sensors 109 may alsodetect infrared light or motion. The infrared sensors 109 may beutilized to determine whether the wireless earpieces 102 are being worn,moved, approached by a user, set aside, stored in a smart case, placedin a dark environment, or so forth.

The frame 108 defines an extension 110 configured to fit substantiallywithin the ear of the user 106. The extension 110 may include one ormore speakers or vibration components for interacting with the user 106.The extension 110 may be removable covered by one or more sleeves. Thesleeves may be changed to fit the size and shape of the user's ears. Thesleeves may come in various sizes and have extremely tight tolerances tofit the user 106 and one or more other users that may utilize thewireless earpieces 102 during their expected lifecycle. In anotherembodiment, the sleeves may be custom built to support the interferencefit utilized by the wireless earpieces 102 while also being comfortablewhile worn. The sleeves are shaped and configured to not cover varioussensor devices of the wireless earpieces 102.

In one embodiment, the frame 108 or the extension 110 (or other portionsof the wireless earpieces 102) may include sensors 112 for sensingpulse, blood oxygenation, temperature, voice characteristics, skinconduction, glucose levels, impacts, activity level, position, location,orientation, as well as any number of internal or external userbiometrics. In other embodiments, the sensors 112 may be positioned tocontact or be proximate the epithelium of the external auditory canal orauricular region of the user's ears when worn. For example, the sensors112 may represent various metallic sensor contacts, optical interfaces,or even micro-delivery systems for receiving, measuring, and deliveringinformation and signals. Small electrical charges or spectroscopyemissions (e.g., various light wavelengths) may be utilized by thesensors 112 to analyze the biometrics of the user 106 including pulse,blood pressure, skin conductivity, blood analysis, sweat levels, and soforth. In one embodiment, the sensors 112 may include optical sensorsthat may emit and measure reflected light within the ears of the user106 to measure any number of biometrics. The optical sensors may also beutilized as a second set of sensors to determine when the wirelessearpieces 102 are in use, stored, charging, or otherwise positioned.

The sensors 112 may be utilized to provide relevant information that maybe communicated through the virtual assistant. As described, the sensors112 may include one or more microphones that may be integrated with theframe 108 or the extension of the wireless earpieces 102. For example,an external microphone may sense environmental noises as well as theuser's voice as communicated through the air of the communicationsenvironment 100. An ear-bone or internal microphone may sense vibrationsor sound waves communicated through the head of the user 102 (e.g., boneconduction, etc.).

In some applications, temporary adhesives or securing mechanisms (e.g.,clamps, straps, lanyards, extenders, etc.) may be utilized to ensurethat the wireless earpieces 102 remain in the ears of the user 106 evenduring the most rigorous and physical activities or to ensure that ifthey do fall out they are not lost or broken. For example, the wirelessearpieces 102 may be utilized during marathons, swimming, team sports,biking, hiking, parachuting, or so forth. In one embodiment, miniaturestraps may attach to the wireless earpieces 102 with a clip on the strapsecuring the wireless earpieces to the clothes, hair, or body of theuser. The wireless earpieces 102 may be configured to play music oraudio, receive and make phone calls or other communications, determineambient environmental conditions (e.g., temperature, altitude, location,speed, heading, etc.), read user biometrics (e.g., heart rate, motion,temperature, sleep, blood oxygenation, voice output, calories burned,forces experienced, etc.), and receive user input, feedback, orinstructions. The wireless earpieces 102 may also execute any number ofapplications to perform specific purposes. The wireless earpieces 102may be utilized with any number of automatic assistants, such as Siri,Cortana, Alexa, Google, Watson, or other smart assistants/artificialintelligence systems.

The communications environment 100 may further include the personalcomputer 118. The personal computer 118 may communicate with one or morewired or wireless networks, such as a network 120. The personal computer118 may represent any number of devices, systems, equipment, orcomponents, such as a laptop, server, tablet, medical system, gamingdevice, virtual/augmented reality system, or so forth. The personalcomputer 118 may communicate utilizing any number of standards,protocols, or processes. For example, the personal computer 118 mayutilize a wired or wireless connection to communicate with the wirelessearpieces 102, the wireless device 104, or other electronic devices. Thepersonal computer 118 may utilize any number of memories or databases tostore or synchronize biometric information associated with the user 106,data, passwords, or media content.

The wireless earpieces 102 may determine their position with respect toeach other as well as the wireless device 104 and the personal computer118. For example, position information for the wireless earpieces 102and the wireless device 104 may determine proximity of the devices inthe communications environment 100. For example, global positioninginformation or signal strength/activity may be utilized to determineproximity and distance of the devices to each other in thecommunications environment 100. In one embodiment, the distanceinformation may be utilized to determine whether biometric analysis maybe displayed to a user. For example, the wireless earpieces 102 may berequired to be within four feet of the wireless device 104 and thepersonal computer 118 in order to display biometric readings or receiveuser input. The transmission power or amplification of received signalsmay also be varied based on the proximity of the devices in thecommunications environment 100.

In one embodiment, the wireless earpieces 102 and the correspondingsensors 112 (whether internal or external) may be configured to take anumber of measurements or log information and activities during normalusage. This information, data, values, and determinations may bereported to the user or otherwise utilized as part of the virtualassistant. The sensor measurements may be utilized to extrapolate othermeasurements, factors, or conditions applicable to the user 106 or thecommunications environment 100. For example, the sensors 112 may monitorthe user's usage patterns or light sensed in the communicationsenvironment 100 to enter a full power mode in a timely manner. The user106 or another party may configure the wireless earpieces 102 directlyor through a connected device and app (e.g., mobile app with a graphicaluser interface) to set power settings (e.g., preferences, conditions,parameters, settings, factors, etc.) or to store or share biometricinformation, audio, and other data. In one embodiment, the user mayestablish the light conditions or motion that may activate the fullpower mode or that may keep the wireless earpieces 102 in a sleep or lowpower mode. As a result, the user 106 may configure the wirelessearpieces 102 to maximize the battery life based on motion, lightingconditions, and other factors established for the user. For example, theuser 106 may set the wireless earpieces 102 to enter a full power modeonly if positioned within the ears of the user 106 within ten seconds ofbeing moved, otherwise the wireless earpieces 102 remain in a low powermode to preserve battery life. This setting may be particularly usefulif the wireless earpieces 102 are periodically moved or jostled withoutbeing inserted into the ears of the user 106.

The user 106 or another party may also utilize the wireless device 104to associate user information and conditions with the user preferences.For example, an application executed by the wireless device 104 may beutilized to specify the conditions that may “wake up” the wirelessearpieces 102 to automatically or manually communicate information,warnings, data, or status information to the user. In addition, theenabled functions (e.g., sensors, transceivers, vibration alerts,speakers, lights, etc.) may be selectively activated based on the userpreferences as set by default, by the user, or based on historicalinformation. In another embodiment, the wireless earpieces 102 may beadjusted or trained over time to become even more accurate in adjustingto habits, requirements, requests, activations, or other processes orfunctions performed by the virtual assistant. The wireless earpieces 102may utilize historical information to generate default values,baselines, thresholds, policies, or settings for determining when andhow the virtual assistant performs various communications, actions, andprocesses. As a result, the wireless earpieces 102 may effectivelymanage the automatic and manually performed processed of the wirelessearpieces based on automatic detection of events and conditions (e.g.,light, motion, user sensor readings, etc.) and user specified settings.

The wireless earpieces 102 may include any number of sensors 112 andlogic for measuring and determining user biometrics, such as pulse rate,skin conduction, blood oxygenation, temperature, calories expended,blood or excretion chemistry, voice and audio output, position, andorientation (e.g., body, head, etc.). The sensors 112 may also determinethe user's location, position, velocity, impact levels, and so forth.Any of the sensors 112 may be utilized to detect or confirm light,motion, or other parameters that may affect how the wireless earpieces102 manage, utilize, and initialize the virtual assistant. The sensors112 may also receive user input and convert the user input into commandsor selections made across the personal devices of the personal areanetwork. For example, the user input detected by the wireless earpieces102 may include voice commands, head motions, finger taps, fingerswipes, motions or gestures, or other user inputs sensed by the wirelessearpieces. The user input may be determined by the wireless earpieces102 and converted into authorization commands that may be sent to one ormore external devices, such as the wireless device 104, the personalcomputer 118, a tablet computer, or so forth. For example, the user 106may create a specific head motion and voice command that when detectedby the wireless earpieces 102 are utilized to send a request to thevirtual assistant (implemented by the wireless earpiece or wirelessearpieces 102/wireless device 104) to tell the user 106 her currentheart rate, speed, and location. Any number of actions may also beimplemented by the virtual assistant in response to specified userinput.

The sensors 112 may make all of the measurements with regard to the user106 and communications environment 100 or may communicate with anynumber of other sensory devices, components, or systems in thecommunications environment 100. In one embodiment, the communicationsenvironment 100 may represent all or a portion of a personal areanetwork. The wireless earpieces 102 may be utilized to control,communicate, manage, or interact with a number of other wearable devicesor electronics, such as smart glasses, helmets, smart glass, watches orwrist bands, other wireless earpieces, chest straps, implants, displays,clothing, or so forth. A personal area network is a network for datatransmissions among devices, components, equipment, and systems, such aspersonal computers, communications devices, cameras, vehicles,entertainment/media devices, and medical devices. The personal areanetwork may utilize any number of wired, wireless, or hybridconfigurations and may be stationary or dynamic. For example, thepersonal area network may utilize wireless network protocols orstandards, such as INSTEON, IrDA, Wireless USB, Bluetooth, Z-Wave,ZigBee, Wi-Fi, ANT+ or other applicable radio frequency signals. In oneembodiment, the personal area network may move with the user 106.

In other embodiments, the communications environment 100 may include anynumber of devices, components, or so forth that may communicate witheach other directly or indirectly through a wireless (or wired)connection, signal, or link. The communications environment 100 mayinclude one or more networks and network components and devicesrepresented by the network 120, such as routers, servers, signalextenders, intelligent network devices, computing devices, or so forth.In one embodiment, the network 120 of the communications environment 100represents a personal area network as previously disclosed. The virtualassistant herein described may also be utilized for any number ofdevices in the communications environment 100 with commands orcommunications being sent to and from the wireless earpieces 102,wireless device 104, personal computer 118 or other devices of thecommunications environment 100.

Communications within the communications environment 100 may occurthrough the network 120 or a Wi-Fi network or may occur directly betweendevices, such as the wireless earpieces 102 and the wireless device 104.The network 120 may communicate with or include a wireless network, suchas a Wi-Fi, cellular (e.g., 3G, 4G, 5G, PCS, GSM, etc.), Bluetooth, orother short range or long range radio frequency networks, signals,connections, or linkes. The network 120 may also include or communicatewith any number of hard wired networks, such as local area networks,coaxial networks, fiber-optic networks, network adapters, or so forth.Communications within the communications environment 100 may be operatedby one or more users, service providers, or network providers.

The wireless earpieces 102 may play, display, communicate, or utilizeany number of alerts or communications to indicate that the actions,activities, communications, mode, or status in use or being implementedby the virtual assistant. For example, one or more alerts may indicatewhen virtual assistant processes automatically or manually selected bythe user are in process, authorized, and/or changing with specifictones, verbal acknowledgements, tactile feedback, or other forms ofcommunicated messages. For example, an audible alert and LED flash maybe utilized each time the wireless earpieces 102 activate the virtualassistant to receive user input. Verbal or audio acknowledgements,answers, and actions utilized by the wireless earpieces 102 areparticularly effective because of user familiarity with such devices instandard smart phone and personal computers. The corresponding alert mayalso be communicated to the user 106, the wireless device 104, and thepersonal computer 118.

In other embodiments, the wireless earpieces 102 may also vibrate,flash, play a tone or other sound, or give other indications of theactions, status, or process of the virtual assistant. The wirelessearpieces 102 may also communicate an alert to the wireless device 104that shows up as a notification, message, or other indicator indicatingchanges in status, actions, commands, or so forth.

The wireless earpieces 102 as well as the Wireless device 104 mayinclude logic for automatically implementing the virtual assistant inresponse to motion, light, user activities, user biometric status, userlocation, user position, historical activity/requests, or various otherconditions and factors of the communications environment 100. Thevirtual assistant may be activated to perform a specified activity or to“listen” or be prepared to “receive” user input, feedback, or commandsfor implementation by the virtual assistant. The logic may provide fornatural language processing so that when the virtual assistant islistening, the virtual assistance may determine what is a command or tocollect context which may be used in interpreting or executing a futurecommand.

The wireless device 104 may represent any number of wireless or wiredelectronic communications or computing devices, such as smart phones,laptops, desktop computers, control systems, tablets, displays, gamingdevices, music players, personal digital assistants, vehicle systems, orso forth. The wireless device 104 may communicate utilizing any numberof wireless connections, standards, or protocols (e.g., near fieldcommunications, NFMI, Bluetooth, Wi-Fi, wireless Ethernet, etc.). Forexample, the wireless device 104 may be a touch screen cellular phonethat communicates with the wireless earpieces 102 utilizing Bluetoothcommunications. The wireless device 104 may implement and utilize anynumber of operating systems, kernels, instructions, or applications thatmay make use of the available sensor data sent from the wirelessearpieces 102. For example, the wireless device 104 may represent anynumber of android, iOS, Windows, open platforms, or other systems anddevices. Similarly, the wireless device 104 or the wireless earpieces102 may execute any number of applications that utilize the user input,proximity data, biometric data, and other feedback from the wirelessearpieces 102 to initiate, authorize, or process virtual assistantprocesses and perform the associated tasks.

As noted, the layout of the internal components of the wirelessearpieces 102 and the limited space available for a product of limitedsize may affect where the sensors 112 may be positioned. The positionsof the sensors 112 within each of the wireless earpieces 102 may varybased on the model, version, and iteration of the wireless earpiecedesign and manufacturing process.

FIG. 2 is a block diagram of a wireless earpiece system 200 inaccordance with an illustrative embodiment. As previously noted, thewireless earpieces 202 may be referred to or described herein as a pair(wireless earpieces) or singularly (wireless earpiece). The descriptionmay also refer to components and functionality of each of the wirelessearpieces 202 collectively or individually. In one embodiment, thewireless earpiece system 200 may enhance communications andfunctionality of the wireless earpieces 202. In one embodiment, thewireless earpieces 202 may operate a virtual assistant independently. Inanother embodiment, the wireless earpieces 202 and a computing device204 may implement a virtual assistant jointly or separate instances thatwork together as part of the wireless earpiece system 200.

As shown, the wireless earpieces 202 may be wirelessly linked to thecomputing device 204. For example, the computing device 204 mayrepresent a wireless tablet computer. The computing device 204 may alsorepresent a gaming device, cell phone, vehicle system (e.g., GPS,speedometer, pedometer, entertainment system, etc.), media device, smartwatch, laptop, smart glass, or other electronic devices. User input andcommands may be received from either the wireless earpieces 202 or thecomputing device 204 for implementation on either of the devices of thewireless earpiece system 200 (or other externally connected devices).

In some embodiments, the computing device 204 may act as a logging toolfor receiving information, data, or measurements made by the wirelessearpieces 202. For example, the computing device 204 may download datafrom the wireless earpieces 202 in real-time. As a result, the computingdevice 204 may be utilized to store, display, and synchronize data forthe wireless earpieces 202. For example, the computing device 204 maydisplay pulse, proximity, location, oxygenation, distance, caloriesburned, and so forth as measured by the wireless earpieces 202. Thecomputing device 204 may be configured to receive and display aninterface, selection elements, and alerts that indicate conditions toimplement the virtual assistant. For example, the wireless earpieces 202may utilize factors, such as changes in motion or light, distancethresholds between the wireless earpieces 202 and/or computing device204, signal activity, user orientation, user speed, user location,environmental factors (e.g., temperature, humidity, noise levels,proximity to other users, etc.) or other automatically determined oruser specified measurements, factors, conditions, or parameters toimplement various features, functions, and commands.

The computing device 204 may also include a number of optical sensors,touch sensors, microphones, and other measurement devices that mayprovide feedback or measurements that the wireless earpieces 202 mayutilize to determine an appropriate mode, settings, or enabledfunctionality to be utilized by the virtual assistant. The wirelessearpieces 202 and the computing device 204 may have any number ofelectrical configurations, shapes, and colors and may include variouscircuitry, connections, and other components.

In one embodiment, the wireless earpieces 202 may include a battery 208,a logic engine 210, a memory 212, a user interface 214, a physicalinterface 215, a transceiver 216, sensors 217, and a virtual assistant218. The computing device 204 may have any number of configurations andinclude components and features similar to the wireless earpieces 202 asare known in the art. The virtual assistant 218 may be implemented aspart of the logic engine 210, user interface, or other hardware,software, or firmware of the wireless earpieces and/or computing device204.

The battery 208 is a power storage device configured to power thewireless earpieces 202. In other embodiments, the battery 208 mayrepresent a fuel cell, thermal electric generator, piezo electriccharger, solar charger, ultra-capacitor, or other existing or developingpower storage technologies. The logic engine 210 preserve the capacityof the battery 208 by reducing unnecessary utilization of the wirelessearpieces 202 in a full-power mode when there is little or no benefit tothe user (e.g., the wireless earpieces 202 are sitting on a table ortemporarily lost). The battery 208 or power of the wireless earpiecesare preserved for when being worn or operated by the user. As a result,user satisfaction with the wireless earpieces 202 is improved and theuser may be able to set the wireless earpieces 202 aside at any momentknowing that battery life is automatically preserved by the logic engine210 and functionality of the wireless earpieces 202.

The logic engine 210 is the logic that controls the operation andfunctionality of the wireless earpieces 202. The logic engine 210 mayinclude circuitry, chips, and other digital logic. The logic engine 210may also include programs, scripts, and instructions that may beimplemented to operate the logic engine 210. The logic engine 210 mayrepresent hardware, software, firmware, or any combination thereof. Inone embodiment, the logic engine 210 may include one or more processors.The logic engine 210 may also represent an application specificintegrated circuit (ASIC) or field programmable gate array (FPGA). Inone embodiment, the logic engine 210 may execute instructions to managethe virtual assistant 218 including interactions with the components ofthe wireless earpieces 202, such as the user interface 214 and sensors217.

The logic engine 210 may utilize measurements from two or more of thesensors 217 to determine whether the virtual assistant is beingrequested or is otherwise needed. The logic engine 210 may controlactions implemented the virtual assistant 218 in response to any numberof measurements from the sensors 217, the transceiver 216, the userinterface 214, or the physical interface 215 as well as user preferences220 that may be user entered or default preferences. For example, thelogic engine 210 may initialize or otherwise use the virtual assistant218 in response to any number of factors, conditions, parameters,measurements, data, values, or other information specified within thelogic engine 210 or by the user preferences 220.

The logic engine 210 may also determine whether the wireless earpieces202 are actively performing any user-requested functions that mayrequire that activation of the virtual assistant or that the virtualassistant be ready to receive a request. For example, the logic enginemay determine whether music is being played, communications beingreceived, processed, or sent, noise-cancellation is being performed andso forth. Utilizing the user preferences, the logic engine 210 mayexecute instructions to initiate and implement the virtual assistant. Ifuser input, feedback, or communications are detected or received, thelogic engine 210 may initiate the virtual assistant to perform a taskassociated with the input. For example, the virtual assistant mayimplement wireless earpieces 202 to answer questions, provide userbiometrics, answer activity related questions (e.g., how fast am Igoing, what is my average speed, where is the closest McDonalds, etc.)manage features, functions, or components, answer general questions, andso forth. The wireless earpieces 202 may be configured to work togetheror completely independently based on the needs of the user. For example,the wireless earpieces 202 may be used by two different users at onetime.

The logic engine 210 may also process user input to determine commandsimplemented by the wireless earpieces 202 or sent to the wirelessearpieces 204 through the transceiver 216. Specific actions may beassociated with user input (e.g., voice, tactile, orientation, motion,gesture, etc.). For example, the logic engine 210 may implement a macroallowing the user to associate frequently performed actions withspecific commands/input implemented by the virtual assistant 218.

In one embodiment, a processor included in the logic engine 210 iscircuitry or logic enabled to control execution of a set ofinstructions. The processor may be one or more microprocessors, digitalsignal processors, application-specific integrated circuits (ASIC),central processing units, or other devices suitable for controlling anelectronic device including one or more hardware and software elements,executing software, instructions, programs, and applications, convertingand processing signals and information, and performing other relatedtasks. The processor may be configured to perform natural languageprocessing (NLP) for the earpiece in order to map user voice input intoexecutable commands. The processor may also implement any number ofartificial intelligence techniques including machine learningalgorithms.

The memory 212 is a hardware element, device, or recording mediaconfigured to store data or instructions for subsequent retrieval oraccess at a later time. The memory 212 may represent static or dynamicmemory. The memory 212 may include a hard disk, random access memory,cache, removable media drive, mass storage, or configuration suitable asstorage for data, instructions, and information. In one embodiment, thememory 212 and the logic engine 210 may be integrated. The memory mayuse any type of volatile or non-volatile storage techniques and mediums.The memory 212 may store information related to the status of a user,wireless earpieces 202, computing device 204, and other peripherals,such as a wireless device, smart glasses, a smart watch, a smart casefor the wireless earpieces 202, a wearable device, and so forth. In oneembodiment, the memory 212 may display instructions, programs, drivers,or an operating system for controlling the user interface 214 includingone or more LEDs or other light emitting components, speakers, tactilegenerators (e.g., vibrator), and so forth. The memory 212 may also storethresholds, conditions, signal or processing activity, proximity data,and so forth.

The transceiver 216 is a component comprising both a transmitter andreceiver which may be combined and share common circuitry on a singlehousing. The transceiver 216 may communicate utilizing Bluetooth, Wi-Fi,ZigBee, Ant+, near field communications, wireless USB, infrared, mobilebody area networks, ultra-wideband communications, cellular (e.g., 3G,4G, 5G, PCS, GSM, etc.), infrared, or other suitable radio frequencystandards, networks, protocols, or communications. The transceiver 216may also be a hybrid or multi-mode transceiver that supports a number ofdifferent communications. For example, the transceiver 216 maycommunicate with the computing device 204 or other systems utilizingwired interfaces (e.g., wires, traces, etc.), NFC, or Bluetoothcommunications as well as with the other wireless earpiece utilizingNFMI. The transceiver 216 may also detect amplitudes and signal strengthto infer distance between the wireless earpieces 202 as well as thecomputing device 204.

The components of the wireless earpieces 202 may be electricallyconnected utilizing any number of wires, contact points, leads, busses,wireless interfaces, or so forth. In addition, the wireless earpieces202 may include any number of computing and communications components,devices or elements which may include busses, motherboards, printedcircuit boards, circuits, chips, sensors, ports, interfaces, cards,converters, adapters, connections, transceivers, displays, antennas, andother similar components. The physical interface 215 is hardwareinterface of the wireless earpieces 202 for connecting and communicatingwith the computing device 204 or other electrical components, devices,or systems.

The physical interface 215 may include any number of pins, arms, orconnectors for electrically interfacing with the contacts or otherinterface components of external devices or other charging orsynchronization devices. For example, the physical interface 215 may bea micro USB port. In one embodiment, the physical interface 215 is amagnetic interface that automatically couples to contacts or aninterface of the computing device 204. In another embodiment, thephysical interface 215 may include a wireless inductor for charging thewireless earpieces 202 without a physical connection to a chargingdevice. The physical interface 215 may allow the wireless earpieces 202to be utilized when not worn as a remote microphone and sensor system(e.g., seismometer, thermometer, light detection unit, motion detector,etc.). For example, measurements, such as noise levels, temperature,movement, and so forth may be detected by the wireless earpieces evenwhen not worn. The wireless earpieces 202 may be utilized as a pair,independently, or when stored in a smart case. Each of the wirelessearpieces 202 may provide distinct sensor measurements as needed.

The user interface 214 is a hardware interface for receiving commands,instructions, or input through the touch (haptics) of the user, voicecommands, or predefined motions. The user interface 214 may furtherinclude any number of software and firmware components for interfacingwith the user. In one embodiment, the virtual assistant 218 may beintegrated with the virtual assistant 218. The user interface 214 may beutilized to manage and otherwise control the other functions of thewireless earpieces 202. The user interface 214 may include the LEDarray, one or more touch sensitive buttons or portions, a miniaturescreen or display, or other input/output components (e.g., the userinterface 214 may interact with the sensors 217 extensively). The userinterface 214 may be controlled by the user or based on commandsreceived from the computing device 204 or a linked wireless device. Forexample, the user may turn on, reactivate, or provide feedback for thevirtual assistant 218 or other features, functions, and components ofthe wireless earpieces 202 utilizing the user interface 214.

In one embodiment, the user may provide user input for the virtualassistant 218 by tapping the user interface 214 once, twice, threetimes, or any number of times. Similarly, a swiping motion may beutilized across or in front of the user interface 214 (e.g., theexterior surface of the wireless earpieces 202) to implement apredefined action. Swiping motions in any number of directions orgestures may be associated with specific virtual assistant controlledactivities or actions, such as play music, pause, fast forward, rewind,activate a virtual assistant, listen for commands, report sportsmeasurements or biometrics, and so forth.

The swiping motions may also be utilized to control actions andfunctionality of the computing device 204 or other external devices(e.g., smart television, camera array, smart watch, etc.). The user mayalso provide user input by moving his head in a particular direction ormotion or based on the user's position or location. For example, theuser may utilize voice commands, head gestures, or touch commands tochange the processes implemented by the virtual assistant 218 as well asthe content displayed by the computing device 204. The user interface214 may also provide a software interface including any number of icons,soft buttons, windows, links, graphical display elements, and so forth.

In one embodiment, the sensors 217 may be integrated with the userinterface 214 to detect or measure the user input. For example, infraredsensors positioned against an outer surface of the wireless earpieces202 may detect touches, gestures, or other input as part of a touch orgesture sensitive portion of the user interface 214. The outer orexterior surface of the user interface 214 may correspond to a portionof the wireless earpieces 202 accessible to the user when the wirelessearpieces are worn within the ears of the user.

In addition, the sensors 217 may include pulse oximeters,accelerometers, thermometers, barometers, radiation detectors,gyroscopes, magnetometers, global positioning systems, beacon detectors,inertial sensors, photo detectors, miniature cameras, and other similarinstruments for detecting user biometrics, environmental conditions,location, utilization, orientation, motion, and so forth. The sensors217 may provide measurements or data that may be utilized to select,activate, or otherwise utilize the virtual assistant 218. Likewise, thesensors 217 may be utilized to awake, activate, initiate, or otherwiseimplement actions and processes utilizing conditions, parameters,values, or other data within the user preferences 220. For example, theoptical biosensors within the sensors 217 may determine whether thewireless earpieces 202 are being worn and when a selected gesture toactivate the virtual assistant 218 is provided by the user.

The computing device 204 may include components similar in structure andfunctionality to those shown for the wireless earpieces 202. Thecomputing device may include any number of processors, batteries,memories, busses, motherboards, chips, transceivers, peripherals,sensors, displays, cards, ports, adapters, interconnects, and so forth.In one embodiment, the computing device 204 may include one or moreprocessors and memories for storing instructions. The instructions maybe executed as part of an operating system, application, browser, or soforth to implement the features herein described. In one embodiment, thewireless earpieces 202 may be magnetically or physically coupled to thecomputing device 204 to be recharged or synchronized or to be stored. Inone embodiment, the computing device 204 may include a virtual assistantthat is compatible with the virtual assistant 218. As a result, theseparate instances may function as a single virtual assistant to enhancefunctionality. In addition, the seamless integration may appear to theuser as a single virtual assistant (even though multiple instances maybe involved across a number of different wireless and wired electronicdevices). In another embodiment, the wireless earpieces 202 andcomputing device 204 may still communicate effectively to perform themethods and processes herein described even if a virtual assistant forthe computing device 204 may be different from the virtual assistant218. For example, distinct virtual assistants may still communicate andinteract based on developing interfaces, protocols, or standards fromdifferent service providers, manufacturers, and developers. For example,the wireless earpieces 202 or the computing device 204 may utilize datamashup technologies to interface with 3^(rd) party web services, such asGoogle, Microsoft, Facebook, Yelp, Twitter, and others to performactions, search requests, look up information, question answering, andother relevant services. The virtual assistant may also transform outputfrom 3^(rd) party web services back into natural language (e.g., heartbpm 80 to “your heart rate is 80 beats per minute”, or based on theweather report “the weather will be sunny today”). Virtual assistants ofthe wireless earpieces 204 or the computing device 204 may utilizetext-to-speech (TTS) technologies or logic to transform natural languageor to parse text as is herein described.

The computing device 204 may also execute a virtual assistant that mayutilize information, data, and resources from the wireless earpieces 202and virtual assistant 204 to implement user requested actions. Thecomputing device 204 may be utilized to adjust the user preferences 220including settings, thresholds, activities, conditions, environmentalfactors, and so forth utilized by the virtual assistants of both thewireless earpieces 202 and the computing device 204. For example, thecomputing device 204 may utilize a graphical user interface that allowsthe user to more easily specify any number of conditions, values,measurements, parameters, and factors that are utilized.

In another embodiment, the computing device 204 may also include sensorsfor detecting the location, orientation, and proximity of the wirelessearpieces 202 to the computing device 204. The wireless earpieces 202may turn off communications to the computing device 204 in response tolosing a status or heart beat connection to preserve battery life andmay only periodically search for a connection, link, or signal to thecomputing device 204. The wireless earpieces 202 may also turn offcomponents, enter a low power or sleep mode, or otherwise preservebattery life in response to no interaction with the user for a timeperiod, no detection of the presence of the user (e.g., touch, light,conductivity, motion, etc.), or so forth.

As originally packaged, the wireless earpieces 202 and the computingdevice 204 may include peripheral devices such as charging cords, poweradapters, inductive charging adapters, solar cells, batteries, lanyards,additional light arrays, speakers, smart case covers, transceivers(e.g., Wi-Fi, cellular, etc.), or so forth. In one embodiment, thewireless earpieces 202 may include a smart case (not shown). The smartcase may include an interface for charging the wireless earpieces 202from an internal battery as well as through a plugged connection. Thesmart case may also utilize the interface or a wireless transceiver tolog utilization, biometric information of the user, and otherinformation and data.

FIG. 3 is a pictorial representation of some of the sensors 301 of thewireless earpieces 302 in accordance with illustrative embodiments. Aspreviously noted, the wireless earpieces 302 may include any number ofinternal or external sensors. In one embodiment, the sensors 301 may beutilized to determine whether the virtual assistant is activated,utilized, or listening for user input. Similarly, any number of othercomponents or features of the wireless earpieces 302 may be managedbased on the measurements made by the sensors 301 to preserve resources(e.g., battery life, processing power, etc.). The sensors 301 may makeindependent measurements or combined measurements utilizing the sensoryfunctionality of each of the sensors to measure, confirm, or verifysensor measurements.

In one embodiment, the sensors 301 may include optical sensors 304,contact sensors 306, infrared sensors 308, and microphones 310. Theoptical sensors 304 may generate an optical signal that is communicatedto the ear (or other body part) of the user and reflected back. Thereflected optical signal may be analyzed to determine blood pressure,pulse rate, pulse oximetry, vibrations, blood chemistry, and otherinformation about the user. The optical sensors 304 may include anynumber of sources for outputting various wavelengths of electromagneticradiation and visible light. Thus, the wireless earpieces 302 mayutilize spectroscopy as it is known in the art and developing todetermine any number of user biometrics.

The optical sensors 304 may also be configured to detect ambient lightproximate the wireless earpieces 302. For example, the optical sensors304 may detect light and light changes in an environment of the wirelessearpieces 302, such as in a room where the wireless earpieces 302 arelocated. The optical sensors 304 may be configured to detect any numberof wavelengths including visible light that may be relevant to lightchanges, approaching users or devices, and so forth.

In another embodiment, the contact sensors 306 may be utilized todetermine that the wireless earpieces 302 are positioned within the earsof the user. For example, conductivity of skin or tissue within theuser's ear may be utilized to determine that the wireless earpieces arebeing worn. In other embodiments, the contact sensors 306 may includepressure switches, toggles, or other mechanical detection components fordetermining that the wireless earpieces 302 are being worn. The contactsensors 306 may measure or provide additional data points and analysisthat may indicate the biometric information of the user. The contactsensors 306 may also be utilized to apply electrical, vibrational,motion, or other input, impulses, or signals to the skin of the user.

The wireless earpieces 302 may also include infrared sensors 308. Theinfrared sensors 308 may be utilized to detect touch, contact, gestures,or other user input. The infrared sensors 308 may detect infraredwavelengths and signals. In another embodiment, the infrared sensors 308may detect visible light or other wavelengths as well. The infraredsensors 308 may be configured to detect light or motion or changes inlight or motion. Readings from the infrared sensors 308 and the opticalsensors 304 may be configured to detect light or motion. The readingsmay be compared to verify or otherwise confirm light or motion. As aresult, virtual assistant decisions regarding user input, biometricreadings, environmental feedback, and other measurements may beeffectively implemented in accordance with readings form the sensors 301as well as other internal or external sensors and the user preferences.

The wireless earpieces 310 may include microphones 310. The microphones310 may represent external microphones as well as internal microphones.The external microphones may positioned exterior to the body of the useras worn. The external microphones may sense verbal or audio input,feedback, and commands received from the user. The external microphonesmay also sense environmental, activity, and external noises and sounds.The internal microphone may represent an ear-bone or bone conductionmicrophone. The internal microphone may sense vibrations, waves, orsound communicated through the bones and tissue of the user's body(e.g., skull). The microphones 310 may sense content that is utilized bythe virtual assistant of the wireless earpieces 302 to implement theprocesses, functions, and methods herein described. The audio inputsensed by the microphones 310 may be filtered, amplified, or otherwiseprocessed before or after being sent to the logic of the wirelessearpieces 302.

In another embodiment, the wireless earpieces 302 may include chemicalsensors (not shown) that perform chemical analysis of the user's skin,excretions, blood, or any number of internal or external tissues orsamples. For example, the chemical sensors may determine whether thewireless earpieces 302 are being worn by the user. The chemical sensormay also be utilized to monitor important biometrics that may be moreeffectively read utilizing chemical samples (e.g., sweat, blood,excretions, etc.). In one embodiment, the chemical sensors arenon-invasive and may only perform chemical measurements and analysisbased on the externally measured and detected factors. In otherembodiments, one or more probes, vacuums, capillary action components,needles, or other micro-sampling components may be utilized. Minuteamounts of blood or fluid may be analyzed to perform chemical analysisthat may be reported to the user and others. The sensors 301 may includeparts or components that may be periodically replaced or repaired toensure accurate measurements. In one embodiment, the infrared sensors308 may be a first sensor array and the optical sensors 304 may be asecond sensor array.

FIG. 4 is a flowchart of a process for utilizing a virtual assistant forwireless earpieces in accordance with an illustrative embodiment. Theprocess of FIG. 4 may be implemented by one or more wireless earpieces,such as the wireless earpieces 102 of FIG. 1 . The process of FIG. 4 maybe implemented by a virtual assistant of the wireless earpieces. Thevirtual assistant may operate independently from the virtual assistantsof other wireless or computing devices. In an alternative embodiment,one or more steps or portions of the process of FIG. 4 may beimplemented by a wireless device, computing device, wearable devices, orany number of other devices communicating directly or through a networkwith the wireless earpieces. The processes and steps of FIGS. 4-7 may becombined as well as performed in any order.

In one embodiment, the process may begin with the wireless earpiecesreceiving a request to be implemented by wireless earpieces (step 402).The request may represent a command, input, feedback, or measurementsindicating that instructions, commands, or input are forthcoming to thevirtual assistant. For example, the request may specify that a reportingcommand for the virtual assistant of the wireless earpieces isimmediately or subsequently forthcoming. The request may also put thevirtual assistant in a “listen” mode. In another embodiment, the requestmay represent the actual instructions, commands, or input the user iscommunicating for implementation by the virtual assistant of thewireless earpieces. For example, the user may ask, “what is my heartrate and average heart rate for the last 20 minutes?”

The request may be received in any number of ways associated with thecomponents of the wireless earpieces. In one embodiment, the request maybe a verbal request, such as “tell me my current speed.” In anotherembodiment, the request may be a tactile request, such as a tap, swipe,or other input detected by the wireless earpieces. In anotherembodiment, the request may be a gesture sends by the wirelessearpieces, such as a hand motion or shape made proximate the wirelessearpieces, a head nod, or so forth. In another embodiment, the requestmay be a position, location, or orientation of the user. For example, inresponse to determining the user is oriented to ride a bike, the virtualassistant of the wireless earpieces may be configured to receivecommands reporting biometric or cycling information to the user withoutdelay.

Next, the wireless earpieces execute a virtual assistant (step 404). Inone embodiment, the virtual assistant may be activated as requested bythe user. For example, the request may be converted into a commandsucceeded by the logic or processor of the wireless earpieces toactivate the virtual assistant. In other embodiments, the virtualassistant may always run as a background program.

Next, the wireless earpieces implement an action to fulfill the requestutilizing the virtual assistant of the wireless earpieces (step 406).The virtual assistant may implement any number of commands, input, orfeedback. In one embodiment, the virtual assistant may implement theactions without requiring a connection to one or more networks,communications connections, signals, or other devices. The autonomousoperation of the virtual assistant of the wireless earpieces may beparticularly useful when the user is without a network or deviceconnection, actively engaged in a sport or other activity, or so forth.The virtual assistant may provide sports, biometric, environmental, andother information to the user. The virtual assistant may also initiate,open, close, control, or execute any number of applications, logic,components, features, and functions of the wireless earpieces. Forexample, a sports application specific to running may be opened inresponse to the user saying open “I jog.” The virtual assistantretrieves the applicable information from the logic, sensors, memory,and other components of the wireless earpieces to immediately providethe answer to the user. In additional embodiments, the wirelessearpieces may have databases, logic, or additional sensors that allowthe wireless earpieces to independently answer questions, related tolocation, fitness, sports activities, proximity to users and locations,and general knowledge questions (e.g., the types of answers thatexisting smart assistants provide”. In one embodiment, the user mayspecify types of databases or information available through the virtualassistant. In one embodiment, the action of step 406 may implement aprocess that requires additional feedback, steps, or so forth.

Although not specifically shown, the wireless earpieces may be linkedwith communications devices. The wireless earpieces may be linked withthe communications device, such as a smart phone, utilizing any numberof communications, standards, or protocols. For example, the wirelessearpieces may be linked with a cell phone by a Bluetooth connection. Theprocess may require that the devices be paired utilizing an identifier,such as a passcode, password, serial number, voice identifier, radiofrequency, or so forth. The wireless earpieces may be linked with thecommunications device and any number of other devices directly orthrough one or more networks, such as a personal area network. Thewireless earpieces may be linked so that actions or commands implementedby the wireless earpieces may also implemented or communicated acrossone or more wireless device(s) (e.g., for reporting, synchronization,process management, etc.). In addition, any number of alerts, messages,or indicators may be sent between the two devices to present informationto the user.

The information utilized by the wireless earpieces may come from anynumber of sensor components, arrays, or aspects of the wirelessearpieces. Any number of optical, infrared, touch, motion, orientation,and location sensors may be utilized whether internally or externallypositioned (e.g., when the wireless earpieces are worn by the user). Thesensor measurements may be processed or otherwise evaluated by thewireless earpieces for implementing various processes. For example, oneor more processors of the wireless earpieces may process the incomingdata measurements from first and second sensor arrays so that sportreporting may be quickly reported to the user when asked (e.g., how fastam I going, how long have I been running, etc.). The wireless earpiecesmay utilize predictive logic to determine the most common requestsreceived by the wireless earpieces so that the applicable data,measurements, or processing are already completed or ready to becompleted without delay based on a request received by the virtualassistant. Additional, optical, chemical, mechanical, and/or electricalsensors of the wireless earpieces or a connected wireless device mayalso be utilized. The sensor measurements are processed for subsequentanalysis, determinations, or decisions, implemented by the wirelessearpieces.

FIG. 5 is a flowchart of a process for utilizing a virtual assistant forwireless earpieces and a wireless device in accordance with anillustrative embodiment. In one embodiment, the process of FIG. 5 may beimplemented by wireless earpieces 502 in communication with the wirelessdevice 504 (jointly the “system”). The wireless earpieces 502 andwireless device 504 may represent devices, such as those shown in FIGS.1 & 2 . The method of FIG. 5 also be performed independently by each theleft wireless earpiece or the right wireless earpiece.

The process may begin with the wireless earpieces 502 or the wirelessdevice 504 activating a virtual assistant (step 506). The virtualassistant may be automatically or manually activated based on a requestfrom the user, user preferences, location, activity, or any number ofother factors, conditions, parameters, feedback, or so forth. As noted,the wireless earpieces 502 and the wireless device 504 may individuallyor collectively implement or execute a virtual assistant. The virtualassistant may represent a single instance executed across both devices,common or similar virtual assistants, or distinct virtual assistants.

Next, the wireless earpieces 502 determine whether a request received bythe virtual assistant is implementable by the wireless earpieces 502(step 508). The wireless earpieces 502 determine whether the request isimplementable based on the information, applications, processes, andmethodologies available to the wireless earpieces 502. In oneembodiment, the request may be received audibly from the user. In otherembodiments, the request may be automatically or manually receivedalphanumerically, tactilely, based on historical requests, based on userpreferences, or so forth. Reception of the request may be received aspart of step 506 or may alternatively represent a different stepaltogether.

In response to determining the request is implementable by the wirelessearpieces 502 during step 508, the wireless earpieces 502 retrieveinformation and data to fulfill the request (step 510). In oneembodiment, the virtual assistant of the wireless earpieces 502 mayretrieve the information. In other embodiments, additional applications,databases, logic, processes, or methods may be utilized by the wirelessearpieces 5022 fulfill the request. In one embodiment, the wirelessearpieces 502 may request additional information, clarification, orinput in order to fulfill the request.

Next, the wireless earpieces 502 implement and action to fulfill therequest utilizing the virtual assistant (step 512). As noted, the actionmay be performed by the virtual assistant or other components, modules,functions, or other portions of the wireless earpieces 502. The sensorsof the wireless earpieces 502 may be utilized to provide biometric,user, and environmental measurements applicable to the request.

In response to determining the request is not implementable (e.g.,entirely) by the wireless earpieces 502 during step 510, the request isprocessed by the virtual assistant of the wireless device 504 (step514). In one embodiment, some requests made by the user may requireprocessing power, information, connections, signals, and networks, orother resources that may be beyond those available to the wirelessearpieces 502 alone. As a result, the request may be implemented in partby the wireless device 504 with or without additional communicationswith the wireless earpieces 502.

Next, the wireless device 504 retrieves information and data from thewireless earpieces to fulfill the request (step 510). In one embodiment,the wireless device 504 may send a request for applicable information tothe wireless earpieces 502. For example, the wireless device 504 mayrequest user biometrics and sports information that may be communicatedfrom the wireless earpieces 502 to the wireless device at least in partto respond to the request. If information is not required from thewireless earpieces 502, the wireless device 504 may process the requestwithout retrieving information as is described in step 510. For example,biometric data may be periodically communicated or synchronized betweenthe wireless earpieces 502 and the wireless device 504, and, as aresult, the wireless device 504 may not require additional informationor communications with the wireless earpieces 502. Next, the wirelessdevice implements an action to fulfill the request utilizing the virtualassistant (step 516).

FIG. 6 is a flowchart of a process for utilizing automaticallyimplementing a virtual assistant in accordance with an illustrativeembodiment. In one embodiment, the process of FIGS. 6 and 7 may beimplemented by wireless earpieces, individually, or as a set. Thewireless earpieces may be utilized as stand-alone devices or maycommunicate with one or more devices (e.g., a smart phone) through aconnection, signal, or network.

The process may begin by receiving user preferences associated with thewireless earpieces (step 602). In one embodiment, the user preferencesmay be provided directly through the wireless earpieces. For example, aninteractive audio menu may audibly present a number of options to a userin order to receive various selections or feedback. The information maybe presented by one or more speakers and user input may be receivedthrough one or more microphones of the wireless earpieces. The user mayalso provide the user preferences utilizing free form text, such as“track my heart rate at all times” or “automatically prepare bikinginformation when I am biking.” In another embodiment, the userpreferences may be selected utilizing a graphical user interface, webinterface, or other interface available through a smart case, wirelessdevice (e.g., app in communication with the wireless earpieces), acomputing device, or other electronics configured to communicate withthe wireless earpieces through a physical or wireless connection. Anynumber of menus, pages, icons, menus, scroll options, radio buttons, andso forth may be utilized to provide the user preferences. Userpreferences received through a separate device may be synchronized tothe wireless earpieces.

Next, the wireless earpieces capture data and information about the userand the environment of the user based on the user preferences (step604). The wireless earpieces include a number of sensors for measuringuser biometrics, the user's environment, and other applicableinformation. The user preferences may specify when the distinct sensorarrays are activated to perform measurements. For example, the userpreferences may specify that pulse information, including applicablestatistics and other mathematical analysis, are available to the useranytime the wireless earpieces are worn by the user. The userpreferences may also set the wireless earpieces to monitor the user'swords and actions to anticipate potential needs.

The data and information may be utilized to perform analysis orcalculations to provide valuable information, suggestions,recommendations, alerts, or other information to the user before evenbeing requested. In one embodiment, the wireless earpieces mayspecifically monitor the health condition of the user.

Next, the wireless earpieces determine whether to provide automaticassistance through the virtual assistant (step 606). In one embodiment,the determination of step 606 may be performed automatically in responseto the user preferences provided by the user. In another embodiment, thewireless earpieces may prompt the user with a question whether the userwould like assistance from the virtual assistant. User input may also bereceived through tactile input, gestures near the wireless earpieces, orso forth.

In one embodiment, the user preferences may specify a user location,orientation, determine action/activity, or user input that may bedetected by the sensors of the wireless earpieces to automaticallyprovide assistance through the virtual assistant of the wirelessearpieces. In one embodiment, the wireless earpieces may detect that theuser is jogging in a part close to his home. As a result, the virtualassistant may have a specific user biometrics, such as time jogging,heart rate, average heart rate, cadence, and steps for minute readyshould the user provide a specified keyword, such as “work out status.”The user preferences may specify any number of keywords, gestures, headmovements, or tactile input that may be utilized to provide thespecified user biometrics. The user preferences may also include a timeror time period, such as every 10 minutes when the user's heart rate isover 120 bpm to provide the specified user biometrics regardless ofother selections that may be made utilizing the wireless earpieces or aconnected wireless device. In another embodiment, the wireless earpiecesmay have an order for hot chocolate ready for electronic transfer to anearby restaurant/shop based on the previous behavior of the user. Inanother embodiment, the wireless earpieces may detect the user isswimming or performing yoga and may automatically begin playing apreselected playlist of music while reporting user specified biometrics.In another embodiment, the wireless earpieces may automatically preparea message, such as a text message indicating “I am on my way home” inresponse to the location of the user (e.g., at the end of a jog or bikeride, or when leaving the gym, etc.). The user preferences may beutilized to provide enhanced communication as well as a safety measurefor the user. For example, the wireless earpieces may also text or postthe user's last known location and activity for specified individualsthat are trusted with that information e.g., immediate family, friends,etc.).

If the wireless earpieces determine to not provide automatic assistancethrough the virtual assistant during step 606, the wireless earpiecescontinue to capture data and information about the user the environmentor the user based on the user preferences (step 604). Updated userpreferences establishing how and when the virtual assistant of thewireless earpieces are utilized may be updated at any time as shown instep 602.

If the wireless earpieces determine to provide automatic assistancethrough the virtual assistant during step 606, the wireless earpiecesgenerate automatic assistance through the virtual assistant utilizingthe data and information (step 608). The virtual assistant may functionin accordance with the user preferences previously established by theuser.

Next, the wireless earpieces communicate the automatic assistance to theuser through the virtual assistant (step 610). In one embodiment, thevirtual assistant may automatically report sports statistics (e.g.,distance travelled, steps, current heart rate, average heart rate,maximum heart rate, average speed, etc.) in response to determining theuser has stopped or changed speeds (e.g., changes from jogging torunning). The virtual assistant may also periodically report custominformation to the user based on the user preferences. For example, thecustom information may include a timer, user's temperature, and anenvironmental temperature. In one embodiment, the virtual assistant ofthe wireless earpieces may interject to provide warnings based ondetermined user biometrics that are associated with a user healthcondition. For example, if the virtual assistant determines based on theuser's biometrics, she may be overheating, the virtual assistant mayprovide a warning to the user and encourage that the user rest, cooldown, drink lots of water and seek out medical attention asneeded/available.

In other embodiments, the wireless earpieces may be utilized to providemarketing or business information to the user. For example, in responseto the user approaching a retail mall, applicable coupons, discounts,promotions, incentives, or other communications may be played to theuser for at least the user may be made aware that such information isavailable. The wireless earpieces may include default preferencescontrolling how such information may be communicated to the user. Theuser preferences may also specify when, how, and where the user may bealerted of such information. The user may also allow the wirelessearpieces to “listen” to applicable conversations to suggest potentialshopping, marketing, or business information.

In other embodiments, the wireless earpieces may implement an action orprovide automatic assistance to address a health or medical status issueassociated with the user. The sensors may read various user biometricsthat may be utilized by the logic (e.g., processing and comparisonagainst user supplied or predefined thresholds) to determine the healthor medical status of the user. For example, the wireless earpieces maydetermine the user is overheating, passed out, lethargic, drunk,slurring speech, in shock, hypertensive, in diabetic shock, dehydrated,in pain, stressed, or so forth. Any number of health or medicalconditions or states may be detected by the wireless earpieces based onthe applicable health factors and parameters that may be ascertained bythe sensors (e.g., pulse rate, respiration rate, temperature, position,orientation, voice characteristics, blood pressure, blood chemicalcontent, skin measurements, impact/force levels, and associatedstatistics, trends, etc.). The sensors of the wireless earpieces (e.g.,microphone, blood monitor, optical scanners, accelerometer, gyroscope,potentiometer, heart rate monitor, or other monitoring device. Thewireless earpieces may identify warning signs as well as conditions tonotify the user, guardians, administrators, caregivers, or so forth.

FIG. 7 is a passive process for utilizing a virtual assistant inaccordance with an illustrative embodiment. The process of FIG. 7 maybegin by executing a virtual assistant for the wireless earpieces (step702). The virtual assistant may represent common virtual or digitalassistants, such as Siri, Alex, Cortana, OK Google, Watson, or so forthprovider by any number of service providers or companies. In oneembodiment, the virtual assistant may run as a background process on thewireless earpieces that may be utilized at any time. The virtualassistant may also be activated based on user input, such as a voicecommand, tactile input, gesture, user movement, user preferences, or soforth. In other embodiments, the virtual assistant may be integratedwith an operating system, kernel, or set of instructions available tothe wireless earpieces. The virtual assistant may also represent anapplication executed by the wireless earpieces.

Next, the wireless earpieces passively collect information and datautilizing sensors of the wireless earpieces (step 702). The wirelessearpieces may collect information in accordance with user preferences,settings, or other permissions of the wireless earpieces. As a result,the user may not feel that the wireless earpieces are invading theprivacy of the user. The user may also specify how the information anddata is saved, archived, or otherwise communicated with a wirelessdevice or other applicable devices or systems. In one embodiment, thewireless earpieces may analyze the speech patterns of the user. Forexample, the wireless earpieces may be utilized to provide feedback forusers that are learning a new language, trying to improve their grammar,vocabulary, or accent, or otherwise trying to enhance their speech andlanguage characteristics. The wireless earpieces may also be utilizedfor medical purposes, such as helping a disabled user develop new speechor motor skills. Similarly, the wireless earpieces may be utilized tohelp a user regain speech and motor functions after a stroke, heartattack, or other medical condition. For example, the user may beprompted to say a number of words, phrases, or sentences and may then becoached, corrected, or otherwise guided to make improvements based onthe voice input read from the user by the microphones of the wirelessearpieces.

In another embodiment, the wireless earpieces may analyze the speech ofthe user to determine applicable questions that the user may have. Theapplicable virtual assistant may utilize automatic speech recognition totranscribe human speech (e.g., commands, questions, dictation, etc.)into text or other formats for subsequent analysis. The virtualassistant may also perform natural language processing (e.g., speechtagging, noun-phrase chunking, dependency and constituent parsing, etc.)to translate transcribed text into parsed text.

During step 704, the virtual assistant may also perform question andintent analysis to analyze parsed text. For example, parsed text may beassociated with particular user commands and actions (e.g., “Tell me myheart rate”, “How far have I ran?”, “Set a timer for five minutes”,“Tell me when I have swam 500 meters”, etc.).

Next, the wireless earpieces provide feedback to the user utilizing thevirtual assistant (step 706). In one embodiment, the feedback may beprovided in response to a user input or request. In another embodiment,the feedback may be automatically provided to the user. In one example,the feedback of step 706 may be applicable to the language analysisperformed during step 404. For example, the virtual assistant mayindicate that the correct saying in English is “for all intents andpurposes” and not “for all intensive purposes” as it is commonlymisstated. Similarly, the user may receive audible instructions on howto roll “r”s when speaking in Spanish, such as “in Spanish the wordarriba sounds almost like uh-rd-rd-rd-iba” or other grammatic,vocabulary, phonetic, accent, or pronunciation instructions. A phoneticspelling may also be sent to a wireless device in communication with thewireless earpieces (e.g., (

ré-b

). In another example, if the user asks in conversation, “Where isJulie?”, the virtual assistant may look up applicable mappinginformation during step 404 that may have been previously shared withthe user by Julie (e.g., Find Friends, Glympse, Google Maps, Waze, etc.)for communication to the user, such as Julie is 2.3 miles away andheaded in your direction at 35 mph.

The illustrative embodiments may take the form of an entirely hardwareembodiment, an entirely software embodiment (including firmware,resident software, micro-code, etc.) or an embodiment combining softwareand hardware aspects that may all generally be referred to herein as a“circuit,” “module” or “system.” Furthermore, embodiments of theinventive subject matter may take the form of a computer program productembodied in any tangible medium of expression having computer usableprogram code embodied in the medium. The described embodiments may beprovided as a computer program product, or software, that may include amachine-readable medium having stored thereon instructions, which may beused to program a computing system (or other electronic device(s)) toperform a process according to embodiments, whether presently describedor not, since every conceivable variation is not enumerated herein. Amachine readable medium includes any mechanism for storing ortransmitting information in a form (e.g., software, processingapplication) readable by a machine (e.g., a computer). Themachine-readable medium may include, but is not limited to, magneticstorage medium (e.g., floppy diskette); optical storage medium (e.g.,CD-ROM); magneto-optical storage medium; read only memory (ROM); randomaccess memory (RAM); erasable programmable memory (e.g., EPROM andEEPROM); flash memory; or other types of medium suitable for storingelectronic instructions. In addition, embodiments may be embodied in anelectrical, optical, acoustical or other form of propagated signal(e.g., carrier waves, infrared signals, digital signals, etc.), orwireline, wireless, or other communications medium.

Computer program code for carrying out operations of the embodiments maybe written in any combination of one or more programming languages,including an object oriented programming language such as Java,Smalltalk, C++ or the like and conventional procedural programminglanguages, such as the “C” programming language or similar programminglanguages. The program code may execute entirely on a user's computer,partly on the user's computer, as a stand-alone software package, partlyon the user's computer and partly on a remote computer or entirely onthe remote computer or server. In the latter scenario, the remotecomputer may be connected to the user” computer through any type ofnetwork, including a local area network (LAN), a personal area network(PAN), or a wide area network (WAN), or the connection may be made to anexternal computer (e.g., through the Internet using an Internet ServiceProvider).

FIG. 8 depicts a computing system 800 in accordance with an illustrativeembodiment. For example, the computing system 800 may represent adevice, such as the wireless device 204 of FIG. 2 . The computing system800 includes a processor unit 801 (possibly including multipleprocessors, multiple cores, multiple nodes, and/or implementingmulti-threading, etc.). The computing system includes memory 807. Thememory 807 may be system memory (e.g., one or more of cache, SRAM, DRAM,zero capacitor RAM, Twin Transistor RAM, eDRAM, EDO RAM, DDR RAM,EEPROM, NRAM, RRAM, SONOS, PRAM, etc.) or any one or more of the abovealready described possible realizations of machine-readable media. Thecomputing system also includes a bus 803 (e.g., PCI, ISA, PCI-Express,HyperTransport®, InfiniBand®, NuBus, etc.), a network interface 806(e.g., an ATM interface, an Ethernet interface, a Frame Relay interface,SONET interface, wireless interface, etc.), and a storage device(s) 809(e.g., optical storage, magnetic storage, etc.). The system memory 807embodies functionality to implement all or portions of the embodimentsdescribed above. The system memory 807 may include one or moreapplications or sets of instructions for implementing a virtualassistant to communicate with one or more wireless earpieces. Thevirtual assistant may be stored in the system memory 807 and executed bythe processor unit 802. As noted, the virtual assistant may be similaror distinct from a virtual assistant utilized by the wireless earpieces.Code may be implemented in any of the other devices of the computingsystem 800. Any one of these functionalities may be partially (orentirely) implemented in hardware and/or on the processing unit 801. Forexample, the functionality may be implemented with an applicationspecific integrated circuit, in logic implemented in the processing unit801, in a co-processor on a peripheral device or card, etc. Further,realizations may include fewer or additional components not illustratedin FIG. 8 (e.g., video cards, audio cards, additional networkinterfaces, peripheral devices, etc.). The processor unit 801, thestorage device(s) 809, and the network interface 805 are coupled to thebus 803. Although illustrated as being coupled to the bus 803, thememory 807 may be coupled to the processor unit 801. The computingsystem 800 may further include any number of optical sensors,accelerometers, magnetometers, microphones, gyroscopes, temperaturesensors, and so forth for verifying user biometrics, or environmentalconditions, such as motion, light, or other events that may beassociated with the wireless earpieces or their environment.

The features, steps, and components of the illustrative embodiments maybe combined in any number of ways and are not limited specifically tothose described. In particular, the illustrative embodiments contemplatenumerous variations in the smart devices and communications described.The foregoing description has been presented for purposes ofillustration and description. It is not intended to be an exhaustivelist or limit any of the disclosure to the precise forms disclosed. Itis contemplated that other alternatives or exemplary aspects areconsidered included in the disclosure. The description is merelyexamples of embodiments, processes or methods of the invention. It isunderstood that any other 35 modifications, substitutions, and/oradditions may be made, which are within the intended spirit and scope ofthe disclosure. For the foregoing, it can be seen that the disclosureaccomplishes at least all of the intended objectives.

The previous detailed description is of a small number of embodimentsfor implementing the invention and is not intended to be limiting inscope. The following claims set forth a number of the embodiments of theinvention disclosed with greater particularity.

What is claimed is:
 1. A method for a virtual assistant on a pair ofwireless earpieces, the method comprising: executing the virtualassistant on a processor disposed within a first wireless earpiece ofthe pair of wireless earpieces, wherein the virtual assistant has alistening mode; activating the listening mode of the virtual assistantfor collecting context to interpret a future request made to the pair ofwireless earpieces, wherein the context includes data includingbiometric data, location, and environmental data; capturing at least aportion of the biometric data and the environmental data using one ormore sensors of a second wireless earpiece within the pair of wirelessearpieces while the virtual assistant is in the listening mode;wirelessly communicating the biometric data and the environmental datafrom the second wireless earpiece to the first wireless earpiece;activating the virtual assistant in response to receiving user inputdefining a request from a user to be implemented by the pair of wirelessearpieces, wherein the user input comprises voice input received at thepair of wireless earpieces; analyzing the request by the virtualassistant executing on the processor of the first wireless earpiece byapplying natural language processing to the voice input about thebiometric data and the environmental data previously acquired from theone or more sensors of the second wireless earpiece when the virtualassistant was in the listening mode to determine an action to fulfillthe request; and implementing the action to fulfill the requestutilizing the virtual assistant; wherein the one or more sensors includeat least one microphone.
 2. The method according to claim 1, wherein therequest is for biometric information captured by the one or more sensorsof the second wireless earpiece.
 3. The method according to claim 2,wherein the request is fulfilled by sending one or more commands to anassociated wireless device.
 4. The method of claim 1, wherein the futurerequest is a voice request.
 5. The method according to claim 4, whereinthe listening mode includes natural language processing of voice inputfrom the user.
 6. The method of claim 1, wherein the virtual assistantreports sport metrics associated with a user of the pair of wirelessearpieces.
 7. The method of claim 1, further comprising predicting therequest based on the capturing of the data of the user and theenvironment of the user.
 8. A method of utilizing a virtual assistant ona pair of wireless earpieces comprising: executing the virtual assistanton a processor disposed within a first wireless earpiece of the pair ofwireless earpieces, wherein the virtual assistant has a listening mode;activating the listening mode of the virtual assistant for collectingcontext to interpret a future request to the wireless earpieces, whereinthe context includes user biometric data, location, and environmentaldata in accordance with user preferences received from the user;capturing, at a plurality of sensors located on both the first wirelessearpiece and a second wireless earpiece of the pair of wirelessearpieces, the user biometric data and the environment data inaccordance with the user preferences while the virtual assistant is inlistening mode; wirelessly communicating the user biometric data and theenvironment data from the second wireless earpiece to the first wirelessearpiece; providing verbally through the virtual assistant executing,information to the user if the biometric and/or environmental data isindicative of a parameter within the user preferences for which the userdesired to be notified; receiving, from the user, a response to theinformation provided by the virtual assistant regarding the biometricand/or environmental data captured by the plurality of sensors while thevirtual assistant was in listening mode; activating the virtualassistant by a processor of the first wireless earpiece, in response toreceiving the response from the user; and implementing, by the virtualassistant while activated, an action associated with the response fromthe user; wherein the plurality of sensors include at least a firstmicrophone and a second microphone.
 9. The method of claim 8, whereinthe plurality of sensors further includes an inertial sensor.
 10. Themethod of claim 8, further comprising adjusting the information inaccordance with a habit associated with the user.
 11. The method ofclaim 8, wherein the environment of the user is a business environmentand the information includes suggestions associated with the businessenvironment.
 12. A method for a virtual assistant on a pair of wirelessearpieces, the method comprising: executing the virtual assistant on aprocessor disposed within a first wireless earpiece of the pair ofwireless earpieces, wherein the virtual assistant has a listening mode;activating the listening mode of the virtual assistant for collectingcontext to interpret a future request made to the pair of wirelessearpieces, wherein the context includes data including biometric data,location, and environmental data; capturing at least a portion of thebiometric data and the environmental data using one or more sensors of asecond wireless earpiece of the pair of wireless earpieces while thevirtual assistant is in the listening mode; wirelessly communicating theportion of the biometric data and the environmental data captured fromthe second wireless earpiece to the first wireless earpiece; activatingthe virtual assistant in response to receiving user input defining arequest from a user to be implemented by the pair of wireless earpieces,wherein the user input comprises voice input received at one or moremicrophones of the pair of wireless earpieces; analyzing the request bythe virtual assistant executing on the processor of the first wirelessearpiece by applying natural language processing to the voice inputabout the biometric data and the environmental data previously acquiredfrom the one or more sensors when the virtual assistant was in thelistening mode to determine an action to fulfill the request; andimplementing the action to fulfill the request utilizing the virtualassistant.
 13. The method according to claim 12, wherein the request isfor biometric information captured by the one or more sensors of thesecond wireless earpiece.
 14. The method according to claim 12, whereinthe request is fulfilled by sending one or more commands to anassociated wireless device.
 15. The method of claim 12, wherein thefuture request is a voice request.
 16. The method according to claim 15,wherein the listening mode includes natural language processing of voiceinput from the user.
 17. The method of claim 12, wherein the virtualassistant reports sport metrics associated with a user of the pair ofwireless earpieces.
 18. The method of claim 12, further comprisingpredicting the request based on the capturing of the data of the userand the environment of the user and the location of the user.